CN111032957B

CN111032957B - Tamping assembly for tamping a sleeper of a track

Info

Publication number: CN111032957B
Application number: CN201880048897.1A
Authority: CN
Inventors: G·塞尔莱纳
Original assignee: Plasser und Theurer Export Von Bahnbaumaschinen GmbH
Current assignee: Plasser und Theurer Export Von Bahnbaumaschinen GmbH
Priority date: 2017-08-08
Filing date: 2018-07-09
Publication date: 2022-06-24
Anticipated expiration: 2038-07-09
Also published as: US11608598B2; EP3665330A1; EA201900560A1; HUE057060T2; EP3665330B1; JP2020529544A; PL3665330T3; EA039335B1; CA3067921A1; AT520267B1; US20200157745A1; JP7155244B2; WO2019029923A1; DK3665330T3; ES2898255T3; AT520267A1; CN111032957A

Abstract

The invention relates to a tamping assembly (16) for tamping sleepers (2) of a track (3), comprising a tamping unit (1) having tamping tools (6), which tamping tools (6) are positioned relative to each other and supported on a lowerable tool carrier (5), each tamping tool (6) being connected to a pressing drive (8) for generating a pressing movement, wherein an eccentric drive (9) having an eccentric shaft (13) is provided for generating an oscillating movement. Each squeezing drive (8) is supported on a carrier (10) having an annular housing part (11), which housing part (11) is mounted on an eccentric part (12) of an eccentric shaft (13) associated with the squeezing drive (8).

Description

Tamping assembly for tamping a sleeper of a track

Technical Field

The invention relates to a tamping assembly for tamping sleepers of a track, comprising a tamping unit having oppositely positioned tamping tools which are mounted on a lowerable tool carrier and are each connected to a pressing drive for producing a pressing movement, wherein an eccentric drive having an eccentric shaft is provided for producing an oscillating movement.

Background

In order to maintain the track or after track renovation, it is often necessary to compact the ballast bed. In addition to manual tamping machines, it is known to use tamping assemblies arranged on track maintenance machines for this purpose. During a track tamping operation, the track maintenance machine is moved along the track while the tamping pick secured to the tamping assembly is lowered into the sleeper channel

And pressed together.

During this process, the tamper assembly is subjected to extremely high stresses. In particular during their entry into the ballast bed and during the subsequent compaction of the ballast under the sleepers, extreme load variations occur which cause great stress on the vibration drive. Even between tamping processes, the tamper assembly may be severely affected by the continuously operating vibratory drive and the vibrations transmitted to the tamping tool.

For example, from AT 350097B, a tamping assembly for tamping sleepers of a track is known. As vibration generator is a rotatable eccentric shaft to which a squeezing drive is articulated for transmitting vibrations to the tamping pick.

Disclosure of Invention

It is an object of the present invention to provide an improvement over the prior art for a tamper assembly of the type mentioned at the outset.

According to the invention, this object is achieved by a tamper assembly according to claim 1. The dependent claims show advantageous embodiments of the invention.

The invention proposes that each of the displacement drives is supported on a carrier with an annular housing part, which is mounted on an eccentric part of the eccentric shaft associated with the displacement drive. In this way, the tamping assembly is designed with a particularly slim and compact structure. Due to the arrangement of the bracket, the pressing drive and the eccentric shaft are arranged above each other in a space-saving manner.

A simple embodiment of the invention provides that the housing parts are mounted on the associated eccentric parts by means of roller bearings, respectively. Roller bearings are maintenance-free throughout their service life. Since the friction torque is small and the temperature rise is small, no additional device, such as an oil cooling device, is required at the normal rotation speed.

However, it is advantageous to provide a pneumatic oil lubrication for the roller bearings of the respective housing part on the associated eccentric part. This continuous type lubrication device with a small amount of oil optimizes the service life of the roller bearing. Since the oil requirement is minimal, even the use of a small oil tank is sufficient to ensure long-term uninterrupted operation. Such a tank may be arranged in close proximity to the eccentric drive.

Preferably, the supports are each designed in a P-shape with the support part pointing downwards. This design of the respective bracket provides a structurally simple and space-saving solution for arranging the press drive.

In an advantageous further development, the respective pressing drive is supported at one end on the associated support and is connected at another point to the housing part of the support. The stress distribution and the force transmission are improved due to the additional support of the compression driver on the bracket. The size of the individual components can then be optimized so that they are light in weight.

In this case, it is advantageous if the respective pressing drive is connected at another point to the housing part of the associated support by means of a bell-shaped connecting element. The compression driver can thus be anchored securely to the stent in a structurally simple and cost-effective manner.

An advantageous further development provides that the two pressing drives are arranged next to one another below the eccentric drive and are oriented in opposite directions. Due to this arrangement, the individual tamping modules of the tamping assembly are configured in the most space-saving and compact manner.

Advantageously, the respective tamping tool is connected to the associated pressing drive by means of an offset lever arm. With this structurally simple solution, the oppositely situated tamping tools can have a common line of action even if the associated press drives are arranged laterally offset from one another.

It is further advantageous if the pressing drives are each designed as a hydraulic cylinder. The asynchronous pressure-dependent pressing of the tamping pick thus achieved results in a uniform compaction under all the sleepers of the track to be tamped. In addition, by means of the hydraulic cylinder, larger forces can be applied with smaller constructional dimensions.

Another advantageous embodiment of the invention provides that said tamping assembly comprises a plurality of identically constructed tamping units for simultaneously tamping a plurality of sleepers. A slim design is particularly advantageous here. Due to this flexible design and variable combination of the tamper units, the tamper assembly can be perfectly matched to the operating conditions and meet the customer requirements. In addition, the modular design enables economical and efficient production.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings. In the drawings:

figure 1 schematically shows a descending tamping unit;

figure 2 schematically shows a side view of a lowered tamping unit;

fig. 3 schematically illustrates a tamper assembly in a modular design;

FIG. 4 schematically shows a detailed view of an eccentric drive with a bracket;

FIG. 5 schematically shows a detailed view of an eccentric drive with a bracket;

FIG. 6 schematically shows a detailed cross-sectional view of an eccentric drive;

figure 7 schematically shows a detailed cross-sectional view of the extrusion driver.

Detailed Description

Fig. 1 shows a simplified schematic illustration of a tamping unit 1 for tamping sleepers 2 of a track 3, the tamping tool 1 having a tool carrier 5 which can be lowered by a drive 4 and a number of pairs of tamping tools 6 positioned opposite one another. Each tamping tool 6 is connected to an eccentric drive 9 via a pivot arm 7 and a pressing drive 8. The extrusion drives 8 are each supported on a support (Konsole)10, the supports 10 having an annular housing part 11, the annular housing parts 11 being mounted on corresponding eccentric parts 12 of an eccentric shaft 13 of the eccentric drive 9, the eccentric parts 12 being associated with the extrusion drives 8. The respective pivot arm 7 has an upper pivot axle 14, the press drive 8 being mounted on the upper pivot axle 14. The respective pivot arm 7 is supported on the tool carrier 5 for rotation about a lower pivot axis 15. Such a tamping unit 1 is intended for installation in a tamping assembly 16 in a track tamping machine movable on a track 3, or in a tamping trolley (Stopfsatelliten).

Fig. 2 shows a side view of the tamping unit 1, with the tamping unit 1 also in a lowered position. The eccentric drive 9, which comprises two supports 10, is arranged on an eccentric axis 17 in the tool carrier 5. The eccentric shaft 13 is rotatably supported in the tool carrier 5 on both sides via bearings 18. The respective pivot arms 7 are designed as offset lever arms, so that the tamping tools 6 are aligned exactly opposite, although the eccentric portions 12 are arranged side by side.

Generally, the size of the tamping unit 1, and thus of the combined tamping assembly 16, can be made particularly small by using only the bracket 10, because the squeezing drive 8 is arranged directly below the eccentric shaft 13.

Fig. 3 shows two tamping units 1 arranged in an assembly frame 19 and combined into a tamping assembly 16. In this way, a multi-sleeper tamping assembly can be simply and flexibly implemented by combining several tamping units 1 in a modular design. Each modular unit has a separate drive 4 mounted on the assembly frame 19 so that it can be lowered into the ballast bed separately as required.

Fig. 4 shows a detailed view of the eccentric drive 9 comprising an eccentric shaft 13 and bearings (lagerig) 18 arranged on both sides. The eccentric shaft 13 has two eccentric portions 12, which two eccentric portions 12 have two oppositely acting eccentrics. The brackets 10 are arranged on the respective eccentric portions 12. The associated squeeze driver 8 is fixed to the respective bracket by means of a threaded connection 20.

A detailed side view of the eccentric drive 9 comprising the bracket 10 and the pressing drive 8 is shown in fig. 5. The two brackets 10 comprising the ring-shaped housing part 11 have an offset 21 due to the oppositely acting eccentrics. Furthermore, due to the great stresses during operation, it is useful to connect the squeeze driver 8 to the bracket 10 by means of other fixing means than the threaded connection 20. The fastening is realized here, for example, by a bell-shaped connecting element 22.

Fig. 6 shows a sectional view of the eccentric drive 9. The roller bearings 23 are arranged on the respective eccentric portions 12 in the annular housing portion 11 of the bracket 10. Externally, the housing parts 11 each have a threaded housing cover 24. A pneumatic oil lubrication device is provided as the lubrication device. Here, a slight excess of air pressure is created in the closed housing part 11 and an oil drop is added through the oil hole 25 every 5-6 minutes. At one end of the eccentric shaft 13, an internal gear system 26 is provided for a force-locking connection with the drive motor. The drive motor can be designed as a hydraulic motor or as an electric motor, as required.

Fig. 7 shows a sectional view of the pressing drive 8 arranged on the support 10. The pressing drive 8 has a piston rod 27 for pressing the respective pivot arm 7 outwards. In this way, the squeezing movement is superimposed on the vibration generated by the eccentric drive 9.

Claims

1. A tamping assembly (16) for tamping sleepers (2) of a track (3), the tamping assembly (16) comprises a tamping unit (1) with oppositely positioned tamping tools (6), the tamping tools (6) are mounted on a tool carrier (5) that can be lowered and are each connected to a pressing drive (8) for producing a pressing movement, wherein an eccentric drive (9) with an eccentric shaft (13) is provided for generating the oscillating movement, characterized in that each pressing drive (8) is supported on a carrier (10) having an annular housing part (11), the housing part (11) is mounted on an eccentric part (12) of the eccentric shaft (13) which is associated with the pressing drive (8), wherein the eccentric shafts (13) and the pressing drives (8) arranged adjacent to one another are arranged one above the other.

2. Tamper assembly (16) according to claim 1, wherein the housing parts (11) are mounted on the associated eccentric parts (12) by means of roller bearings (23), respectively.

3. Tamper assembly (16) according to claim 2, wherein a pneumatic oil lubrication device for the roller bearings (23) of the respective housing part (11) is provided on the associated eccentric portion (12).

4. Tamping assembly (16) according to any of the claims 1 to 3, wherein said brackets (10) are each designed in a P-shape with the support part pointing downwards.

5. The tamper assembly (16) according to any one of claims 1 to 3, wherein the respective pressing drive (8) is supported on the associated bracket (10) on one end and is connected to the housing portion (11) of the bracket (10) at another location.

6. Tamping assembly (16) according to claim 5, wherein the respective pressing drive (8) is connected at said other point to said shell part (11) of the associated bracket (10) by means of a bell-shaped connecting element (22).

7. Tamping assembly (16) according to any of the claims 1 to 3, wherein two pressing drives (8) are arranged adjacent to each other below said eccentric drive (9) and in opposite orientations.

8. The tamper assembly (16) according to claim 7, wherein the respective tamper tool (6) is connected to the associated squeeze driver (8) by means of an offset lever arm.

9. Tamping assembly (16) according to any of the claims 1 to 3, wherein said pressing drives (8) are designed as hydraulic cylinders, respectively.

10. Tamping assembly (16) according to any of the claims 1 to 3, wherein said tamping assembly (16) comprises several structurally identical tamping units (1) for tamping several sleepers (2) simultaneously.